Process for breaking petroleum emulsions



Patented Mar. 24, 193G PROCESS FOR BREG PETROLEUM EMULSIONS Charles N. Stehr, Los Angeles, Calif., assignor to Tretolite Company, Webster Groves, Mo., a corporation of Missouri No Drawing. Original application November 12,

1934, Serial No. 752,713.

Divided and this application July 15, 1935, Serial No. 31,518

14 Claims.

This invention relates to the treatment of emulsions of mineral oil and water, such as petroleum emulsions, for the purpose of separating the oil from the water, my present application being a ample of a dcmulsifying agent of the kind last referred to is the one described in U. S. Patent No.

1,659,998, to Keiser, dated February 21, 1928,

which demulsifying-agent consists of a mixture division of my co-pending application for patent of previously known demulsifiers, combined incer- 5 Serial No. 752,713, filed November 12, 1934. tain specific proportions.

Petroleum emulsions are of the water-in-oil The treating agent contemplated by my process type, and comprise fine droplets of naturally-ocis a mixture containing blown oils and certain curring water or brines, dispersed in a more or less other materials. The mixture is oil-soluble at permanent state throughout the oil which constileast in higher concentrations, and contains, in 10 tutes the continuous phase of the emulsion. 'I'hey addition to blown oils, sulfo fatty acids in the are obtained from producing wells and from the form of an acid salt, non-sulfo fatty materials bottoms of oil storage tanks, and are commonly and aliphatic monohydric alcohols. The mixture referred to as cut oil, roily oil, emulsified oil also comprises a hydrophobe solvent, such as and bottom settlings. gasoline, kerosene, stove oil, benzol, solvent 15 The object of my invention is to provide a novel, h Still another distinguishing harinexpensive and efficient process for separating acteristic of said mixture is that it is characterized emulsions of the kind, referred to into their comby the substantial absence of water, which is pres- 'ponent parts of oil and water or brine. ent only to the extent of an extraneous impurity,

Briefly described, my process consists in subbeing generally less than 5%, and in many cases, 20 Jectmg a petroleum emulsion of the water-in-oil containing less than 1%. In view of the fact that type, to the action of a treating agent or demulsiit is substantially anhydrous, I prefer to refer to it fying agent of a particular composition hereinas an anhydrous mixture, but I wish it to be after described, thereby causing the emulsion to understood that the term anhydrous is intended break down and separate into its component parts to include such small amounts of extraneous water 5 of oil and water or brine, when the emulsion, is which may be present as a result of the manupermitted to remain in a quiescent state-after such facturing process, in spite of the effort to eliminate treatment, or is subjected to an equivalent separawater from the mixture. A small amount of watory procedure. ter may be incorporated as impurities in the alco- Various classes of materials have heretofore hols hereinafter referred to, that fo m a 30 been used or suggested as demulsifying agents in. stituent of the mixture. As a rule, if the total theteresolittion of pegrrglegn; 1eznulsigidlnss, :lugh as :gwufii; of watiei;3e present iis inflexiiegitof 1 /1 wa r so eners, mo 1 e a y ac y roxy en ere mus presen in e ure a coaromatics, various non-fatty sulfonic acids, etc. 018 avi g a eas t e Carbon atoms, such as Mixtures of materials of the kind above mentioned D py 100 utyl a co It is imma- 35 illilige alstii beeilit used3 or suglgestelili, sometimes with teriegl whether or not the said mixture is waterrove resu s. eneralmw en various classes sou le. of materials are efiicient demulsifiers, mixtures of Blown oils are oils derived by artificial oxidav fi gi zfigfigin a g gggggg gent of reactive fatty oils or reactive fatty acids. 40

er ain exam le of b1 oils r i i not incompatible, but the value or effectiveness of p U. patent 3 1 9 32 to p z i i lgim mlxme Pmduced by 9 a kmwn demultober 3, 1933. Drastically oxidized castor oil, sifier selected from one class, with another known a which may be used as an example of the blown demulsifier selected from a different. class, can

. 11 constituting part of the mixture employed as easily be determined by simple routine chemical the d u] if t f i d n 45 experimentation. There are instances where pari 3 5 ying.agen O i process S esc bed ticular petroleum emulsions or particular types of n t e apphca'tmn for patent of emulsion will not respond to treatment with the DeGroOte and Kaiser serial, 7151773 fi individual members of a class or classes of demul- March 1934: The expression blown oils is smers, or with mixtures produced from selected herein used to include blown fatty aegis, as well 50 members of two diflerent classes of known demulas blown glycerides of fatty acids Ow mixsiflers, and when such emulsions are encountered, res f aci and glycerides y wn i of inventive ability isoften requiredto produce'a dean of the va i u types p p for breaking mulsifying agent that will successfully break or petroleum emulsions of the water-in-oil type,

56 treat the'emulsion under consideration. An exmay be-used as one member, ingredient or conaddition of an alkali results in neutralization.

stituent of the mixture contemplated by my process.

Sulfo fatty acids are derived by the sulfation or sulfonation of fatty materials alone, or fatty materials in the presence of reactive aromatics, as in the production of sulfo-aromatic fatty acids. sulfo-fatty acids comprise true sulfcnic acids, fatty acid sulfates and sulfo-aromatic fatty acids. The expression sulfo-fatty acids" is herein employed to refer-tothe class composed of the three members just mentioned. It is to be noted that these sulfo-fatty acids are dibasic acids, having a strong acid hydrogen in an acid sulfate group, or in a sulfonic group, as well as a weak acid hydrogen in the carboxyl group. When these (11- basic acids are neutralized with any suitable base, such as caustic soda, potassium hydroxide, strong ammonia, triethanolamine, and the like, so as to.

be neutral to methyl orange indicator, only the strong sulfo hydrogen is neutralized. Further of the carboxylic hydrogen, so that the compound becomes alkaline to phenolphthalein indicator. The salts of sulfo-fatty acids which are neutralized only to methyl orange indicator, are referred to as acid salts My process contemplatesthe use of a mixture in which the sulfo-fatty manufacture of suitable acid salts is described in U. S. Patent No. 1,894,759 to DeGroote and Wirtel, dated January 17, 1933.

templated by my process, as herein referred to a The non-sulfo, fatty material employed as one constituent of the mixture contemplated by my p ocess may be of the kind commonly used for breaking oil field emulsions This component may be derived by the .sulfation or sulfonation of any reactive fatty materials, such as oleic acid,,

castor oil, and the like. Such sulfated or sulfonated fatty material may be hydrolyzed, so

as to be substantially free from all organically combined sulfur. Suitable non-sulfo, unsaponifled, fatty'bodies are described .in U. s. Patent No. 1,940,397, to DeGroote and Wirtel, "dated December 19, 1933.

The word saponification is used inthe chemistry of fats to indicate the production of soaps or fatty acids from glycerides, etc. A fatty acid is sometimes referred to as being saponified when it is converted into a salt, such as sodium oleate. The non-sulfo fatty acids in the mixture conas unsaponified in'the sense that they are free from a metal atom or "metallic radical, such as ammonium radical, in the carboxylic hydrogen position. In other words, the fatty acids may be used as such, or they may be used as esters, or

in some other suitable form, such as anhydrides, ester acids, or the like, but they are not intended to be used in the form of salts, except to the extent that a. very small amount of salts may be present as impurities. ,Accordingly, the expression unsaponified fatty acids, as herein employed, is intended to include the esters and other above mentioned derivatives, as well as fatty acids, and the use of the expression is not intended to-rbe limited to the fatty acids alone. Such forms are characterized by water-insolubility. 1 The alcohols comprising one member or ingradient of the mixture employed as the treating agent 6r demulsifying agent of my process, are selected from the class of aliphatic alcohols,

and preferably, those having at least three carbon atoms, such as propyl alcohol, isopropyl alcohol, butyl alcohol, isobutyl alcohol, secondary butyl alcohol, amyl alcohol, etc. Various isomers may be used instead of the normal alcohol. Mixtures of two or more suitable alcohols may be used. The class of suitable alcohols is furthermore restricted to the aliphatic monohydric alcohols. Ethyl alcohol, methyl alcohol, and denatured alcohol, mixtures of the same, or mixtures with butyl alcohol, propyl alcohol, etc. may

be used. It should be noted that if ethyl 8.1-.

cohol, methyl alcohol, or denatured alcohol are to be used solely to supply the monohydric alcohol ingredient of the mixture comprising the de- Percent Blown oil derived from a reactive fatty body -50 Acid salt or salts of a sulfo fatty acid or acids 2-15 Unsaponified, non-sulfo, fatty acids -60 Monohydric, aliphatic alcohols, preferably having at least 3 carbon atoms 5-25 Selected to total"; 100

The mixture previously described may be prepared in any suitable manner. For instance, one may prepare a fatty sulfonation mass so that the resultant product supplies both the sulfo fatty acid salt and also the non-sulfo, unsaponified, fatty material. Such sulfonated mass is washed in the conventional manner, permitted to separate, and then neutralized to methyl orange indicator. The blown oil may be diluted with a suitable amount of the selected alcohol, such as isopropyl alcohol, and then this mixture may be added to the mixture of the sulfo-fatty material and the non-sulfo fatty material. The-individual reagents employed to compose the mixture are readily available on the open market, or the said reagents can be easily produced by well known procedure. While I have described one way of preparing the mixture which is employed as the demulsifying agent of my process, I wish it to be understood that it is immaterial how said mixture is prepared or produced, so long as the mixture comes within the particular limits herein specified.

In order that the mixture may, satis x factorily and easily, in proportional 'iiumps, lubri-' caters, and similar apparatus generally employed to treat petroleum emulsions with a demulsifying agent, a diluent is added to the mixture so as to reduce its viscosity and facilitate the chemical commingling of same with the emulsion being treated.

Suitable diluents are any suitable 25 to 50% by volume.

, material.

hydrophobe solvents, such as gasoline, kerosene, stove oil, benzol, solvent naphtha, etc. A relatively small amount of such added hydrophobe' solvent may be sufiicient to give the required decreased viscosity. For instance, as little as five -or ten percent may be added, whereas, in other cases it may be necessary or desirable to add as much as 50% of diluent. However, the addition of the hydrophobe solvent should not be so great as to cause a separation of the mixture.

It is to be noted that substantially the only hydrophile (water-soluble), fatty component of the mixture is the acid salt of the sulfo-fatty acid. The amount of this acid salt of a sulfo-fatty acid may be so low that the mixture has relatively little miscibility with water, but it is always miscible with oil, at least in higher concentrations of However, in those instances where the amount of the acid salt of the sulfo-fatty acid is relatively high, the mixture may give a perfectly stable solution or suspension when mixed with water, and if one desires, such an aqueous solution or suspension may be employed. In practising my process I prefer to employ the above described mixture in a substantially water-insoluble form, and preferably without aqueous dilution. I have found that the best results are obtained by the use of the reagent, whether it be water-soluble or not, either directly without any dilution, or after mixture with crude oil or the like, rather than any mixture or solution with water. In the claims I have used the expression fwithout aqueous dilution to mean that the mixture is used as such, or after dilution with crude oil.

My preferred demulsifying agent is manufactured in the following manner:

600 lbs. of castor oil are subjected to sulfation by reaction with 300 lbs. of 66 Baum sulfuric acid at a temperature of approximately 40 to 55 C. The acid is added in approximately 4 to 7 hours, depending upon atmospheric temperature. After all the acid is in, the acid mass is permitted to stand about 15 to 25 hours longer, depending on atmospheric temperature. The acid mass-is then washed with 50% of its volume with 10% sodium sulfate solution, and allowed to separate, and the wash water is discarded. This washing process is repeated a second time, after which a 20% solution of caustic soda is added until the mass is just neutral to methyl orange indicator. 50 lbs. of kerosene are added, and the entire mass mixed well and allowed to stand until substantially anhydrous. If properly conducted, the amount of acid sodium salt of sulfo-fatty acid is approximately 10% of the anhydrous fatty After allowing this neutralized mass to stand 72 hours, and withdrawing any additional water which may have been separated, there is then added 600 lbs. of drastically blown castor oil, of the kind described in co-pending application for patent of DeGroote and Keiser, Serial No. 715,773, filed March 15, 1934. There is also added 300 lbs. of isopropyl alcohol, and the mixture is agitated well. The resulting product should be a homogeneous mass, which does not show any separation. In the event that any separation does occur, small additional amounts of isopropyl alcohol, for instance, 25 lb. amounts, must be added until the mixture stays homogeneous, and does not separate, even when al sions.

lowed to stand 30 days or longer. This homogeneous material is, then in suitable condition for use as a demulsifying a'gentfor petroleum emul- From the foregoing I believe it will be apparent that my invention is not concerned with all mixtures of the five classes of materials previously used for demulsification, but, on the contrary, is concerned only with a very limited class or type of mixtures, which must have a certain characteristic composition of a kind not heretofore employed in the resolution of oil field emulsions. The superiority of the reagent or demulsifying agent contemplated by my process is based upon its ability to treat certain emulsions more advantageously and at a somewhat lower cost than is possible with other known demulsifiers, or conventional mixtures thereof. It is believed that the particular demulsifying agent or treating agent herein described will find comparatively limited application, so far as the majority of oil field emulsions are concerned, but I have found that such a demulsifying agent has commercial value, as it will economically break or resolve oil field emulsions in some cases which cannot be treated as easily and at so low a cost with the demulsifying agents heretofore available.

In practising my'process, a treating agent or demulsifying agent of the kind described above may be brought in contact with the emulsion to be treated in any of the numerous ways now employed in the treatment of petroleum'emulbe advisable to introduce the treating agent into at producing well in such a way that it will become mixed with water and oil that are emerging from the surrounding strata, before the said water and oil enter the barrel of the well pump or the tubing up through which said water and oil flow to the surface of the ground. After treatment, the emulsion is allowed to stand in a quiescent state, usually in' a settling tank, and usually at a temperature varying from atmospheric temperature to about 200 F., so as to permit the water or brine to separate from the oil, it being preferable to keep the temperature low enough to prevent the volatilization of valuable constituents of the oil. If desired, the treated emulsion may be acted upon by one or'more of the various k nds of apparatus now used in the operation of breaking petroleum emulsions, such, as homogenizers, hay tanks, gun barrels, filters, centrifuges, or electrical dehydrators.

The amount of treating agent that may be required to break the emulsion may vary from approximately 1 part of treating agent to 500 parts of emulsion, up to 1 part of treating agent to 20,000 or even 30,000 parts of emulsion. The proportion depends on the type of emulsion being treated, and also upon the equipment being used, and the temperature employed. In treating exceptionally refractory emulsions of the kinds known as tank bottoms and "residual pit oils the ratio of 1:500, above referred to, may be required. In treating fresh emulsion, i. e., emulsions that will yield readily to the action of chemical demulsifying agents, the ratio of 1:30,000, above referred to, may be suiiicient to produce highly satisfactory results. found that for an average petroleum emulsion a In general, I have ratio of 1 part of treating agent ,to 5,000 parts of emulsion will usually be found to produce commercially satisfactory results.

Having thus described my invention, what I claim as new and desire to secure by Letters Patcm is:

companied by the splitting of sulfuric acid; (d)- 5 to 25% of an aliphatic, monohydric alcohol or alcohols having at least 3 carbon atoms", and (e) a hydrophobe solvent.

2. A process for breaking petroleum emulsions of the water-in-oil type, characterized by subjecting the emulsion to the action of a demulsifying agent consisting of a substantially anhydrous mixture, oil-soluble at least in high concentrations and comprising the following components: (a) 15 to 50% of blown fatty bodies derived from the class consisting of acids'and glycerides; (b) 2 to 15% of an acid salt or salts of a sulfo-fatty acld; (c) 20 to 60% of an unsaponified, sulfurfree, fatty acid derived bya sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid; (d) 5 to 25% of an aliphatic, monohydric alcohol or alcohols having at least 3 carbon atoms, and (e) a petroleum hydrocarbon distillate.

3. A process for breaking petroleum emulsions of the water-in-oil type, characterized by subjecting the emulsion to the action of a demulsifying agent consisting of a substantially anhydrous mixture, oil-soluble at least in high concentrations and comprising the following components: (a) 15 to 50% of blown fatty bodies derived from the class consisting of acids and glycerides, and derived exclusively from castor 011; (b) 2 to 15% of an acid salt or salts of a sulfo fatty acid; (c)

20 to 60% of an unsaponified, sulfur-free, fatty acid derived by a sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid; (41.) 5 to 25% of an aliphatic, monohydric alcohol or alcohols having at least three carbon atoms, and (e) a petroleum hydrocarbon distillate.

4. A process for breaking petroleum. emulsions of the Water-in-oil typ characterized by subjecting the emulsion to the action of ademulsifying agent consisting of a substantially anhydrous mixture, oil-soluble at least in high concentrations and comprising the following components: (a) 15 to 50% of blown fatty bodies derived from the class consisting of acids and glycerides, and derived exclusively from castor oil; (2)) 2 to 15% of an acid salt or salts of a sulfo fatty acid; 20 to 60% of an unsaponified, sulfur-free, fatty acid derived by a sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid and additionally characterized by being derived exclusively from castor 011; (d) to 25% of an aliphatic, monohydric alcohol or alcohols having at least three carbon atoms, and (e) a petroleum hydrocarbon distillate.

5. A process for breaking petroleum emulsions aoaaees of the water-in-oil type, characterized by subjecting theemulsion to the action of a demulslfying agent consisting of a substantially anhydrous mix;- ture, oil-soluble at least in high concentrations and comprising the following components: (a) to 50% of blown fatty bodies derived from the class consisting of acids and glycerides, and derived exclusively from castor oil; (b) 2 to 15% of an acid salt or salts of a sulfo-fatty acid derived exclusively from castor oil; (0) to 60% of an unsaponified, sulfur-free, fatty acid derived by a sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid and additionally characterized by being derived exclusively from castor oil; (d) 5 to of an aliphatic, monohydric alcohol or alcohols having at least three carbon atoms, and

(e) a petroleum hydrocarbon distillate.

6. A process for breaking petroleum emulsions of the water-in-oil type, characterized by subjecting the emulsion to the action of a demulsifying agent consisting of a substantially anhydrous mixture, oil-soluble at least in high concentrations and comprising the following components: (a) 15 to 50% of blown fatty bodies derived from the class consisting of acids and glycerides, and derived exclusively from castor oil; (1)) 2 to 15% of an acid salt or salts of a sulfo fatty acid derived exclusively from castor oil and further characterized by the fact that it must be in the form of an acid saltof a fatty acid sulfate; (0) 20 to 60% of an unsaponified, sulfur-free, fatty acid derived by a sulfation process andfollowed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid and additionally characterized by being derived exclusively from castor oil; (d) 5 to 25% of analiphatic, monohydric alcohol or alcohols having at least three carbon atoms, and (e) a petroleum hydrocarbon distillate.

7. A process for breaking petroleum emulsions of the water-in-oil type, characterized by sub jecting the emulsion to the action of a demulsify-' ing agent consisting of a substantially anhydrous mixture, oil-soluble at least in ,high, concentrations and comprising the following components: (a) 15 to 50% of blown fatty bodies derived from the classconsisting of acids and glycerides, and derived exclusively from castor oil; (5) 2 to 15% of an acid salt or salts of a sulfo-fatty acid derived exclusively from castor oil and further characterized by the fact that it must be in the form of an acid salt of a fatty acid sulfate; (0) 20 to 60% of an unsaponified sulfur-free, fatty acid derived by a sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid and additionallycharacterized by being derived exclusively from castor oil; (d) 5 to 25% of an aliphatic, mono- U hydric alcohol or alcohols having at least three carbon atoms, and (e) kerosene.

8. A process for breaking petroleum emulsions of the water-in-oil type, characterized by subjecting the emulsion to the action of a demulsifying agent without aqueous dilution, consisting of a substantially anhydrous mixture, oil-soluble at least in high concentrations and comprising the following components: (a) 15 to of blown fatty bodies derived from the class consisting of acids and glycerides; (b) 2 to 15% of an acid salt or salts of a sulfo fatty acid; (0) 20 to of an unsaponified, sulfur-free, fatty acid derived by a sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid; (d) 5 to 25% of an aliphatic, monohydric alcohol or alcohols having at least three carbon atoms, and (e) a hydrophobe solvent.

9. A process for breaking petroleum emulsions of the water-in-oil type, characterized by subjecting the emulsion to the action of a demulsifying agent without aqueous dilution, consisting of a substantially anhydrous mixture, oil-soluble at least in high concentrations and comprising the following components: (a) 15 to 50% of blown fatty bodies derived from the class consisting of acids and glycerides; (b) 2 to 15% of an acid salt or salts of a sulfo fatty acid; (a) 20 to 60% of an unsaponified, sulfur-free, fatty acid derived by a sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid; (d) 5 to 25% of an aliphatic, monohydric al hol or alcohols having at least three carbon ato gs, and (e) a petroleum hydrocarbon distillate.

10. A process for breaking petroleum emulsions of the water-in-oil type, characterized by subjecting the emulsion to the action of a demulsifying agent without aqueous dilution, consisting of a substantially anhydrous mixture, oil-soluble at'least in high concentrations and comprising i the following components: (a) 15 to 50% of blown fatty bodies derived from the class consisting of acids and glycerides, and derived exclusively from castor oil; (5) 2 to 15% of an acid salt or salts of a sulfo-fatty acid; 20 to 60% of an unsaponified, sulfur-free, fatty acid derived by a sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid; (d) to 25% of an aliphatic, monohydric alcohol or alcohols having at least three carbon atoms, and (e) a petroleum hydrocarbon distillate.

11. A process for breaking petroleum emulsions of the water-in-oil type, characterized by subjecting the emulsion to the action of a demulsifying agent without aqueous dilution, consisting of a substantially anhydrous mixture, oil-soluble at least in high concentrations and comprising the following components: (a) 15 to 50% of blown fatty bodies derived from the class consisting of acids and glycerides, and derived exclusively from castor oil; (12) 2 to 15% of an acid salt or salts of a sulfo-fatty acid; (0) 20 to 60% of an unsaponified, sulfur-free, fatty acid derived by a sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid and additionally characterized ing agent without aqueous dilution, consisting of a substantially anhydrous mixture, oil-soluble at least in high concentrations and comprising the following components: (a) 15 to 50% of blown fatty bodies derived from the class consisting of acids and glycerides, and derived exclusively from castor oil; (b) 2 to 15% of an acid salt or salts of a sulfo-fatty acid derived exclusively from castor oil; (0) 20 to 60% of an unsaponified, sulfur-free, fatty acid derived by a sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid and additionally characterized by being derived exclusively from castor oil; (d) 5 to 25% of an aliphatic, monohydric alcohol or alcohols having at least three carbon atoms, and (e) 'a petroleum hydrocarbon distillate.

13. A process for breaking petroleum emulsions of the water-in-oil type, characterized by subjecting the emulsion to the action of a demulsifying agent without aqueous dilution, consisting of a substantially anhydrous mixture, oil-soluble at least in high concentrations and comprising the following components: (a) 15 to 50% of blown fatty bodies derived from the class consisting of acids and glycerides, and derived exclusively from castor oil; (5) 2 to 15% of. an acid salt or salts of a sulfo fatty acid derived exclusively from castor oil and further characterized by the fact that it must be in the form of an acid salt of a fatty acid sulfate; (c) 20 to 60% of an unsaponified, sulfur-free, fatty acid derived by a sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid and additionally characterized by being derived exclusively from castor oil; (d) 5 to 25% of an aliphatic, monohydric alcohol or alcohols having at least three carbon atoms, and (e) a petroleum hydrocarbon distillate.

14. A process for breaking petroleum emulsions of thewater-in-oil type, characterized by subjecting the emulsion to the action of a demulsifying agent without aqueous dilution, consisting of a substantially anhydrous mixture, oil-soluble at least in high concentrations and comprising the following components: (a) 15 to 50% of blown fatty bodies derived from the class consisting of acids and glycerides, and derived exclusively from castor oil; (b) 2 to 15% of an acid salt or salts of a sulfo-fatty acid derived exclusively from castor oil; (0) 20 to 60% of an unsaponified, sulfur-free fatty acid derived by a sulfation process and followed by a hydrolytic decomposition accompanied by the splitting of sulfuric acid and additionally characterized by being derived exclusively from castor oil; (11) 5 to 25% of an aliphatic, monohydric alcohol or alcohols having at least three carbon atoms, and (e) kerosene. CHARLES N. STEHR. 

